A stringed instrument tuning device is disclosed that is enhanced over the prior art by an included mechanism that enables the tuning knob to be positioned freely in any rotational position after a string has been tensioned or tuned. A worm gear drive tuning assembly typical of prior art tuning devices is employed. In one approach, the tuning device includes a common ratchet mechanism that enables free rotation of the tuning knob with respect to the tuning mechanism. In other embodiments disclosed, a spline shaft engagement mechanism is employed with a shuttle that releasably engages the tuning knob to the worm gear drive tuning assembly.
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1. A stringed instrument tuning device comprising:
a pinion gear;
a tuning shaft having a first end and a second end and wherein a transverse aperture is situated near said first end for receiving a wire string;
a worm gear adapted to engage said pinion gear;
a bracket having a first aperture therein, and wherein said second end of said shaft is situated in said first aperture and said pinion gear is attached to said tuning shaft so that said bracket is rotatably captured between said gear and said shaft, said bracket further including worm gear mounting means for rotatably attaching said worm gear to said bracket in a position to engage said pinion gear;
means for rotating said worm gear, said means for rotating attached to said worm gear, said means for rotating positively engaging said worm gear in a first mode of operation, and wherein said means for rotating freely rotates with respect to said worm gear in a second mode of operation; and
a tuning knob attached to said means for rotating.
6. A stringed instrument tuning device comprising:
a pinion gear;
a tuning shaft having a first end and a second end including means situated near said first end adapted for receiving a wire string;
a worm gear;
a planar bracket having worm gear mounting means extending outward therefrom and adapted to rotatably receive said worm gear, said planar bracket further including a shaft aperture and wherein said pinion gear is disposed on one side of said shaft aperture in engaging position with said worm gear and said tuning shaft is attached to said worm gear through said shaft aperture so that said pinion gear and said tuning shaft are rotatably fixed in position with respect to said bracket and said worm gear;
rotating means fixedly attached to said worm gear for providing a rotational force to said worm gear for tensioning the wire string, said rotating means further being capable of rotatably disengaging from said worm gear while still attached thereto so that said rotating means may be rotatably positioned while said worm gear remains in a fixed angular position; and
a tuning knob means attached to said rotation means for enabling a user to readily supply a rotational force to said rotation means.
2. The device of
3. The device of
4. The device of
5. The device of
a spur gear attached to said worm gear;
a knob shaft having a first end, a second end, and a hollow portion at said second end, and wherein said tuning knob is attached to said first end, and wherein said knob shaft is rotatably attached to said worm gear at said second end so that said spur gear is situated within said hollow portion, said knob shaft also having an aperture in the lateral surface thereof that communicates with said hollow portion; and
a gear shuttle disposed within said hollow portion of said knob shaft, said gear shuttle including in internal spline gear sized to engage said spur gear, and wherein said gear shuttle includes a tab protrusion that extends outward through said aperture in said knob shaft, and wherein said gear shuttle is positioned within said aperture by moving said tab protrusion axially toward said spur gear to a first position wherein said internal spline gear of said shuttle engages said spur gear, said shuttle being positionable in a second position by moving said tab axially away from said worm gear so that said gear shuttle is disengaged from said spur gear and said knob shaft rotates freely with respect to said worm gear and said spur gear.
7. The device of
8. The device of
9. The device of
10. The device of
a spur gear attached to said worm gear;
a knob shaft having a first end, a second end, and a hollow portion at said second end, and wherein said tuning knob means is attached to said first end, and wherein said knob shaft is rotatably attached to said worm gear at said second end so that said spur gear is situated within said hollow portion, said knob shaft also having a control knob aperture in the lateral surface thereof that communicates with said hollow portion; and
a gear shuttle disposed within said hollow portion of said knob shaft, said gear shuttle including in internal spline gear sized to engage said spur gear, and wherein said gear shuttle includes a tab protrusion that extends outward through said control knob aperture in said knob shaft, and wherein said gear shuttle is positioned within said aperture by moving said tab protrusion axially toward said spur gear to a first position wherein said internal spline gear of said shuttle engages said spur gear, said shuttle being positionable in a second position by moving said tab axially away from said worm gear so that said gear shuttle is disengaged from said spur gear and said knob shaft rotates freely with respect to said spur gear.
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This invention relates in general to stringed musical instrument and more specifically to tuning devices used with stringed instruments.
A wide variety of stringed instruments are known, such as six and twelve string guitars, bass guitars, ukuleles, mandolins, sitars, banjos and the like. Tuning mechanisms for such stringed instruments are quite old in the art. Typically, a well known worm gear drive tuning mechanism is used to tension the strings wound about a tuning peg. A gear wheel is attached to the tuning peg and the gear wheel is driven by a worm gear mechanism. A common arrangement includes a piece of sheet metal formed into a U-shaped channel across which a worm gear is rotatably mounted. The worm gear engages a mating pinion gear that is directly attached to and rotates the tuning peg. Alternative arrangements are also known wherein the worm gear drive is secured in position by a sheet metal stamping having opposing mounting ears for receiving slots in the worm gear shaft. In order to enhance the appearance of the stringed instrument it is fairly common for the component parts of the tuning mechanism to be nickel plated, including a metal tuning handle or knob. After tensioning the strings using the tuning mechanism, the tuning handles or knobs are most likely not in the same rotational position. Thus, the visual appearance of the musical instrument is something less than desirable. What is needed is a tuning mechanism that provides a means to enable the tuning handles or knobs to be freely rotated after the strings of the stringed instrument have been tuned.
A stringed instrument tuning device according to one aspect of the present invention includes a pinion gear, a tuning shaft having a first end and a second end and wherein a transverse aperture is situated near the first end for receiving a wire string, a worm gear adapted to engage the pinion gear, a bracket having a first aperture therein, and wherein the second end of the tuning shaft is situated in the first aperture and the pinion gear is attached to the shaft so that the bracket is rotatably captured between the gear and the shaft, the bracket further including worm gear mounting means for rotatably attaching the worm gear to the bracket in a position to engage the pinion gear, means for rotating the worm gear, the means for rotating attached to the worm gear, the means for rotating positively engaging the worm gear in a first mode of operation, and wherein the means for rotating freely rotates with respect to the worm gear in a second mode of operation; and a tuning knob attached to the means for rotation.
One object of the present invention is to provide an improved tuning mechanism for use with stringed instruments.
Another object of the present invention is to provide a tuning mechanism that enables the user to freely rotate the tuning knobs after the strings are tensioned appropriately.
Yet another object of the present invention is to provide a tuning mechanism that includes a means for releasably engaging the worm gear drive from a tuning knob in a typical tuning mechanism.
Still another object of the present invention is to enable the user to align the tuning knobs in a specific fashion after the tuning procedure is completed so that accidental contact with the tuning knobs that results in detuning of the instrument is evidenced by visual misalignment of the tuning knobs and readily observed and corrected by the user.
These and other objects of the present invention will become more apparent from the following description of the preferred embodiments and the accompanying drawings.
For the purposes of promoting an understanding of the principles of the invention, reference will now be made to the embodiments illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended, such alterations and further modifications in the illustrated devices, and such further applications of the principles of the invention as illustrated therein being contemplated as would normally occur to one skilled in the art to which the invention relates.
Referring now to
As shown in
Referring now to
A quantity of four tuning devices 40 are attached to neck 62 of a stringed instrument such as a bass guitar as shown in the partial view of a guitar neck of
Referring now to
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Operational speaking, positioning knob 164 in a middle position so that pawl members 168 and 169 are both adjacent shelf 170 results in both clockwise and counterclockwise forces applied to tuning knob 156 being transmitted through ratchet mechanism 154 to worm gear shaft 152. Positioning knob 164 in either of the remaining axially extreme positions results in the ability to rotate tuning knob 156, either clockwise or counterclockwise depending on the specific position of knob 156, without rotating shaft 152 and yet providing a means to transmit rotational force through ratchet mechanism in the opposite rotational direction to shaft 152. Thus, device 150 enables positioning of tuning knob 156 without affecting the rotational position of worm gear shaft 152 in 2 of three operational modes of ratchet mechanism 154. The ratchet mechanism 154 shown in
It is contemplated that any of the great variety of ratchet style mechanisms of the prior art that releasably engage one drive shaft to another shaft may be used with or adapted for use with the present invention. Further, the shuttle and spline gear approaches shown in FIGS. 13-18 are merely two of the multitude of shuttle like engaging-disengaging mechanisms that may be adapted for use with stringed instrument tuning devices to enable rotation of the tuning knob to align all of the tuning knobs as desired after tuning of the stringed instrument is completed. For example, a pivoting lever may be adapted for use in the present invention wherein the lever is pivotally attached along an axis perpendicular to and non-intersecting with the axis of the tuning shaft 132 and is pivotally positionable in one position with one or more teeth to engage the teeth of spline gear (120) thereby engaging the tuning shaft (116) to the worm gear shaft (112) or pivotally positionable away from the gear to enable free rotation of the tuning knob versus the worm gear shaft 112. Such an approach would replace the shuttle 122 approach of device 118.
The materials used in the construction of the stringed instrument tuning devices of the present invention are typical of the art, such as steel for screws, brackets and ratchet components and brass for pinion and worm gear shafts or other suitable materials well known in the art and commonly used for construction of such devices.
A primary benefit of the present invention is the ability to align the tuning knobs after tuning the instrument so that inadvertent physical contact with the knobs that causes detuning of the strings is readily ascertained by visual inspection of the tuning knob positions. A further benefit of the present invention is realized when the user is able to align all the tuning knobs in identical positions after tuning the musical instrument. Letters or designs applied to the tuning knobs are then perfectly aligned so that any message thereon is properly conveyed to the observer viewing the musical instrument.
While the invention has been illustrated and described in detail in the drawings and foregoing description of the preferred embodiments, the same is to be considered as illustrative and not restrictive in character, it being understood that only the preferred embodiments have been shown and described and that all changes and modifications that come within the spirit of the invention are desired to be protected.
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